MCQOPTIONS
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MCQOPTIONS
This section includes 16 Mcqs, each offering curated multiple-choice questions to sharpen your Network Theory knowledge and support exam preparation. Choose a topic below to get started.
| 1. |
Poles or zeros lying on the jω axis must be? |
| A. | complex |
| B. | at least one complex pole |
| C. | at least one complex zero |
| D. | simple |
| Answer» E. | |
| 2. |
The real part of all zeros and poles must be? |
| A. | positive or zero |
| B. | negative or zero |
| C. | positive |
| D. | negative |
| Answer» C. positive | |
| 3. |
In the driving point admittance function, a pole of Y (s) means a _______ of V (S). |
| A. | zero |
| B. | 1 |
| C. | 2 |
| D. | 3 |
| Answer» B. 1 | |
| 4. |
In the driving point admittance function, a zero of Y (s) means a _______ of I (S). |
| A. | 1 |
| B. | 2 |
| C. | 3 |
| D. | zero |
| Answer» E. | |
| 5. |
The zeros of driving point impedance are those frequencies corresponding to ___________ conditions. |
| A. | current source |
| B. | open circuit |
| C. | voltage source |
| D. | short circuit |
| Answer» E. | |
| 6. |
The poles of driving point impedance are those frequencies corresponding to ___________ conditions. |
| A. | short circuit |
| B. | voltage source |
| C. | open circuit |
| D. | current source |
| Answer» D. current source | |
| 7. |
A function N (S) is said to have a pole (or zero) at infinity if the function N (1/S) has a pole (or zero) at S = ? |
| A. | ∞ |
| B. | 2 |
| C. | 0 |
| D. | 1 |
| Answer» D. 1 | |
| 8. |
POLES_OR_ZEROS_LYING_ON_THE_J‚ÂÀ√¨‚ÀÖ¬¢_AXIS_MUST_BE??$# |
| A. | complex |
| B. | at least one complex pole |
| C. | at least one complex zero |
| D. | simple |
| Answer» E. | |
| 9. |
THE_REAL_PART_OF_ALL_ZEROS_AND_POLES_MUST_BE??$ |
| A. | positive or zero |
| B. | negative or zero |
| C. | positive |
| D. | negative |
| Answer» C. positive | |
| 10. |
In the driving point admittance function, a pole of Y (s) means a _______ of V (S)? |
| A. | zero |
| B. | 1 |
| C. | 2 |
| D. | 3 |
| Answer» B. 1 | |
| 11. |
In the driving point admittance function, a zero of Y (s) means a _______of I (S). |
| A. | 1 |
| B. | 2 |
| C. | 3 |
| D. | zero |
| Answer» E. | |
| 12. |
The poles of driving point impedance are those frequencies corresponding to ___________ conditions? |
| A. | short circuit |
| B. | voltage source |
| C. | open circuit |
| D. | current source |
| Answer» D. current source | |
| 13. |
The number of zeros including zeros at infinity is __________ the number of poles including poles at infinity. |
| A. | greater than |
| B. | equal to |
| C. | less than |
| D. | greater than or equal to |
| Answer» C. less than | |
| 14. |
A function N (S) is said to have a pole (or zero) at infinity, if the function N (1/S) has a pole (or zero) at S = ? |
| A. | ‚àû |
| B. | 2 |
| C. | 0 |
| D. | 1 |
| Answer» D. 1 | |
| 15. |
The pole is that finite value of S for which N (S) becomes __________ |
| A. | 0 |
| B. | 1 |
| C. | 2 |
| D. | ‚àû |
| Answer» E. | |
| 16. |
The driving point function is the ratio of polynomials in s. Polynomials are obtained from the __________ of the elements and their combinations. |
| A. | transform voltage |
| B. | transform current |
| C. | transform impedance |
| D. | transform admittance |
| Answer» D. transform admittance | |